& K 3 BRE uy te =| Yrsm | Yrrm | Itcavy Irsu | [2t di/dt Pen |PecavoiVerm |Icrm | Ti | Tstg | IRRM VDRM (1) DRM Te |(50Hz) |t=2-10ms Tj Vb Tj () () (A) CC) ] (A) (ARS) | (W/ s) | CC) () WW) |) (V) | (A) | CC)] CC) mA) | CC) FT300EX-28 1650) 1400) 200.0; 79 | 4000#]/67000. 00 500/125 |1/2VDRM /16.0] 3.00] 5.0)4.000] 125|-40~150] 50.0]125 FT300EX-32 1700| 1600/ 200.0] 79 | 4000|67000. 00 500/125 |1/2VDRM [16.0] 3.00| 5.0/4.000| 125|-40~150| 50.0]125 FT300EX~36 xz 1900) 1800] 200.0] 79 | 4000#]/67000. 00 500)125 |1/ZVDRM 116.0) 3.00] 5.0]/4.000) 125|-40~150} 50.0]125 FTS500EX-20 zz 1200) 1000) 400.0) 83 | 8000] 270000 800/125 |1/2VDRM |50.0) 10.00] 5.0/4.000) 125|-40~150) 70.0/125 FTSO0EX-24 x 1350} 1200] 400.0) 83 | go00#| 270000 800/125 |1/2VDRM [50.0] 10.00] 5.0/4.000| 125|-40~150) 70.0}125 PTSOOEY-20 = 1200! 1000) 406.0) 83 | sac0%) 270006 800/125 |1/2VDRM 150.6) 10.001 5.014.000; 125)-40~ 150) 70.0;125 FTSO0BY~24 = 1350| 1200] 400.0] 83 | 8000#| 270000 800/125 |1/2VDRM [50.0] 10.00; 5.0/4.000] 125)-40~150) 70.0]125 FT500GZ-16 x 960| 800, 400.0] 72 | 7000#] 200000) 1000/125 |1/2VDRM 116.0} 4.00} 25.0/3.000) 125/-40~150)100. 0/125 FT500GZ-20 x 1200| 1000! 400.0! 72 | 7000#! 200000} 1000/125 |1/2VDRM [16.0] 4.00] 25.013. 000! 125/-40~1501/100. 01125 FT500GZ-24 z 1350] 1200] 400.0] 72 | 7000*| 200000] 1000]125 |1/2VDRM [16.0] 4.00] 25.0/3.000| 125|-40~150|100.0]125 FTSOOHZ-16 | =# 960} 800! 400.0] 65 | 6000#| 150000) 10001125 |1/2VDRM /16.0| 4.00] 25.0)3.000] 125/-40~150)100.0)125 FTSOOHZ-20 |= 3 1200! 1000) 400.0! 65 | goods) 150000! 1000}125 |1/2VDRM [16.0] 4.00] 25.0/3. 000) 125|-40~150/100. 01125 FT500HZ-24 |= 1350] 1200) 400.0| 65 | 6000%) 150000} 1000}125 )1/2VDRM 118.0} 4.00) 25.0)3.000) 125)-40~150)100. 0/125 FT800EM-32 | = 3 1850} 1600) 800.0) 51 [140008] 820000 200)125 |1/2VDRM /10.0| 3.00} 5.0/4.000) 125|-40~150| 30.0]125 FTIOOOAX-50 | = 3 2500; 2500/1000.0] 57 |20000%; 1600000 300,125 |1/2VDRM [20.0, 6.00) 10.0/4.000| 125|-40~150/200.0)125 FT1000CX-16 | =# 960] 800) 800.0] 56 |16000#| 1000000) 1500/125 /1/2VDRM [20.0) 6.00] 10.0}4.000) 125/-40~150) 80.0/125 FT1000CX-20 |=# 1200] 1000] 800.0) 56 j16000%| 1000000] 1500/125 ]1/2VDRM |20.0/ 6.00) 10.0)4.000) 125|-40~150] 80.0/125 FT1000CX-24 | =# 1450] 1200) 800.0; 56 |16000#/ 1000000} 1500|125 /1/2VDRM |20.0| 6.00] 10.0]4.000) 125/-40~150| 80.0/125 FT1000CX-28 |=# 1650/ 1400/ 800.0] 56 |16000#| 1000000] 1500/125 |1/2VDRM |20.0; 6.00] 10.0/4.000] 125)-40~150/ 80.0/125 FT1000CX-32 | =# 1700] 1600{ 800.0] 56 |16000#| 1000000; 15001125 |1/2VDRM |20.0] 6.00] 10.0|4.000| 125;-40~150| 80.0/125 FT1000CX-36 |=# 1900] 1800} 800.0] 56 /16000#) 1000000) 1500/125 |1/2VDRM [20.0] 6.00] 10.0/4.000] 125/-40~150) 80.0}125 FT1000CY~-16 | =# 960| 800] 800.0] 68 |16000#) 1000000) 1500/125 |1/2VDRM [20.0] 6.00| 10.0)4.000! 125/-40~150) 80.0/125 FTLO00CY-20 | = 1200} 1000) 800.0} 68 |16000%) 1000000; 1500)125 |1/2VDRM )20.0] 6.00} 10.0}4.000) 125)-40~150) 80.0}125 FT1000CY-24 | =# 1450} 1200} 800.0} 68 16000] 1000000) 1500/125 |1/2VDRM |20.0) 6.00] 10.0/4.000] 125]-40~150| 80.0}125 PTISOOEX-16 |= 3 960| 800/1500.0] 67 |30000#| 3700000; 1500/125 |1/2VDRM [20.0] 6.00] 10.0/4.000] 125|-40~150/120.0]125 FTI500EX-20 |=# 1200] 1000/1500.0] 67 /30000#} 3700000; 1500/125 1/2VDRM |20.0} 6.00] 10.0)4.000} 125/-40~150/120. 0/125 FTI500EX-24 |=# 1350] 1200/1500.0] 67 /30000#| 3700000} 1500/125 |1/2VDRM |20.0} 6.00] 10.0/4.000) 125/-40~150/120. 0/125 FTISOOEY-16 |= 960| 800/1500.0] 67 |30000%| 3700000} 15001125 |1/2VDRM |20.0] 6.00] 10.0/4.000) 125)-40~150)120. 0/125 FTISO0Y-20 | =3 1200} 1000/1500.0} 67 |30000#| 3700000| 1500/125 |1/2VDRM |20.0| 6.00] 10.0/4.000) 125|~40~150/120. 0/125 PTISO0EY-24 | =# 1350} 1200/1500.0} 67 |30000#| 3700000| 1500|125 |1/2VDRM |20.0; 6.00] 10.0/4.000] 125|-40~150|120. 04125 1) ik 2) :& t t t 60Hz OHWAOfA. SRG - 7-2 CERUI1Y) HORI OM. + RRS - ARMOR.a RX ir Vt Veo (min) dv/dt (min) *typ Tq *typ Iq | Rth ARR] A & Vet | It (2) Tj ITM Te Tj Vo Tj Vo Tj It | Ve |*typ (WV) FCC)) (AY | Cv) | ma) ECC)} Y) | CC) () (/us)| (CC) () (us) | (C)} (A) | CY) mA) | CCPH) 3.00]125 940| 2.5/200.00; 25$) 0.20) 125 /1/2VDRM 300 | 125 11/2 VDRM 30 1125 200 50 0.0900 |M-14 |FT300EX-28 3.00/125 940 2.5(200.00| 258] 0.20; 125 |1/2VDRM 300 125 {1/2 V DRM 30 125 200 50 0.0900 |M-14 |FT300EX-32 3.00/125 940 2.5/200.00) 25$| 0.20) 125 {1/2VDRM 300 125 |1/2V DRM 30 | 125 200 50 0.0900 iM-14 FT300EX-36 2.20/125 | 1250) 2.5/250.00] 258) 0.20; 125 |1/2VDRM 200 | 125 |1/2 VDRM 30 |125 400 50 0.0450 IM-16 |FTS500EX-20 2. 20/125 1250 2.5/250.00] 25$] 0.20) 125 |1/2VDRM 200 125 |1/2 V DRM 30 /125 400 50 0.0450 |M-16 | FTS00EX-24 2. 20)125 1250 2.5/250.00] 25$] 0.20; 125 |1/2VDRM 200 125 11/2 V DRM 20 1125 400 50 0.0450 |M-i6 {FT500EY-20 2.20)125 | 1250) 2.5/250.00] 25%) 0.20) 125 |1/2VDRM 200 | 125 |1/2VDRM 20 |125 400 50 0.0450 |M-16 | FT500EY-24 2.801125 | 1250) 2.5/250.00] 25$; 0.20) 125 |1/2VDRM 200 | 125 1/2 V DRM 10 |125 400 50 0.0450 |M-16 (FT500GZ-16 2.801125 | 1250) 2.5/250.00] 25$/ 0.20) 125 |1/2VDRM 200 | 125 )1/2V DRM 10 4125 400 50 0.0450 |M-16 {FT500GZ-20 2. 80/125 1250 2.5/250.00| 25$| 0.20] 125 |1/2VDRM 200 125 {1/2 V DRM 10 4125 400 50 0.0450 |M-16 {FT500GZ-24 1.95)125 400} 4.0/350,00] 25$) 0.20] 125 |1/2VDRM 200 125 {1/2 V DRM 5 j125 400 50 0.0500 |M-16 {|FT500HZ-16 1.957125 400] 4.0/350.00) 25$} 0.20} 125 |1/2VDRM 200 | 125 |1/2VDRM 5 1125 400 50 0.0500 |M-16 {|FT500HZ-20 1.951125 400| 4.0]350.00) 25$} 0.20] 125 |1/2V DRM 200 | 125 |1/2V DRM 5 |125 400 50 0.0500 |M-16 |FT500HZ-24 1.90/125 2500 2.5)250.00| 25$) 0.20) 125 |1/2VDRM 200 125 (1/2 V DRM 80 |125 800 100 0.0450 |M-26 FT800EM-32 $.10)125 3200} 4.0/400.00) 25$} 0.20] 125 |1/2VDRM 500 125 {1/2 V DRM 30 )125 1000 100 0.0200 |M-18 FTLOQ0AX-50 3.00)125 3200 $.0/350.00) 25$) 0.20; 125 |1/2VDRM 300 125 (1/2 V DRM 30 /125 800 100 0.0300 |M-17 FT1LO00CX-16 3.00/125 3200 3.0/350.00] 25$] 0.20) 125 |1/2VDRM 300 125 |1/2 V DRM 30/125 800 100 0.0300 |M-17 FT1000CX-20 3.001125 | 3200] 3.0/350.00] 25$] 0.20) 125 |1/2VDRM 800 | 125 |1/2VDRM 30 /125 800; 100 0.0300 iM-17 |FT1000CX-24 3.00/125 3200 $.0/350.00] 25$] 0.20) 125 |1/2VDRM 300 125 |1/2 VDRM 30 /125 800 100 0.0300 |M-17 |FT1000CX-28 $.00/125 | 3200] 3.0/350.00) 25$; 0.20) 125 |1/2VDRM 300 | 125 |1/2 VDRM 30 4125 800) 100 0.0300 |M-17 |FT1000CX-32 $.00/125 | 3200] 3.0/350.00] 25$) 0.20) 125 |1/2VDRM 300 | 125 |1/2V DRM 30 4125 800 100 0.0300 |M-17 |FT1000CX-36 2.20/125 2500 $.0/350.00] 258] 0.20) 125 |1/2VDRM 300 125 |1/2 VDRM 15 4125 800 100 0.0300 |M-17 |FT1000CY-16 2.20)125 | 2500) 3.0)350.00) 25$} 0.20) 125 |1/2V DRM 300 125 )1/2V DRM 15 7125 800 100 0.0300 |M-17 |FTL000CY-20 2. 20/125 2500 3.0)350.00) 25$; 0.20; 125 |1/2V DRM 300 125 11/2 V DRM 15 7125 800 100 0.0300 |M-17 FT1LO00CY-24 2.10/125 | 4500 $.0)350.00] 25$; 0.20) 125 |1/2VDRM 200 125 |1/2V DRM 30 /125 1500 100 0.0170 |M-18 {FT1500EX-16 2.10/125 | 4500} 3.0)350.00| 25$} 0.20] 125 |1/2VDRM 200 | 125 11/2 VDRM 30 1125 | 1500] 100 0.0170 |M-18 {|FT1500EX-20 2.10/125 | 4500, 3.0/350.00] 25$| 0.20] 125 |1/2VDRM 200 | 125 [1/2 VDRM 30 |125 | 1500| 100 0.0170 |M-18 |FTI500EX-24 2.10/125 | 4500} 3.0/350.00] 25$; 0.20) 125 |1/2VDRM 200 | 125 |1/2VDRM 20 4125 | 1500] 100 0.0170 |M-18 |FTISOOEY-16 2. 10)125 4500 3.0/350.00) 25$; 0.20! 125 11/2 VDRM 200 125 |1/2V DRM 20 1125 1500 100 0.0170 |M-18 FTISQ00EY-20 2. 10}125 4500 3.0/350.00] 25$| 0.20; 125 11/2 VDRM 200 125 |1/2 V DRM 20 125 1500 100 0.0170 |M-18 FTL500EY-24 * BAMREC BOT, (min), (typ), BEMADKO Ol (ma HERT o -EERACHOT, MARRS, + RM (Ta), # HR ZEKE VRE (Ce EK Tf), $ MAMSMBE (TI EEHEHRT. 346 02+ 002 FD-4 30.3MAX, OTF 0ST XVNGZ =, SOF FT XVWZ a Vy XVINV SOT 1.5) > EGLI6% M20(P OT +S6E Ct HEH fiz-mm)> 347 Se s-SeSe 348 20.5+0.5 565 \E #4.2(0.17) X2.5(0.1)Depth both side 2-94.3(0.17) (10.63+0.39) 4 A Unit in mm (inch) $4.2X2.5 Depth(bath side (0.165) (0.098) 2-$4.3(0.17) CT EELS x mm, 349 M24P1,50h-| Unit in mm (inch) R4ig.5 & 8 : ae 7.4 R9.95 0.5-F 64,3 4 - 1.6 + 1.4 66.4 Ot wae 3 se ~ z BA WZIs 5 & i xx b a Y * ols 23 4% - Z az i z| 3 & Ss td =] 3 e| a 8 a a] S M6 T HH Hf | 1) x J et CET = + NS @r/-F x 6 8 - @avF _f | & ek La MI2P1.5 * - we M12P1.5@ = M20P1.5 oO ey iS \ $42 Depth 25(Boin side} g 26 af 43 p 7, Spit o Z | $4.2(0.17) X2.5(0.1) Depth both side 10.5 oi .2-$4.3(0.17) Cathode auxiliary terminal = #10 (2.165) < ~ EIR 3 (1 ae0.39) 275M (10.826)/ zB = E |z S 3 2 fo | my =z N = 8 |S x ae ! of. = ~ #55, Gate terminal (2.165) k t (4.17) 995 (3.740) ~ Unit in mm (inch) Ct RBM iz + mm> 350 $4.2 Depth 2.6(Both side) 40.165) (0.102) 4.26 K2.5 Depth both side Cathode auxiliary terminal $60(2. 362) 33 (2.244) 577- 277MN (10.906) 265MIN a i = agl Gate terminal =o =f ) $60 (2.362) 8 4 $100MAX (3.937) Unit in mm (inch) 33 K 664 H-22 17 53 (2.087) 14 t a S {4 ! T ; I ae at af 8 0.75 2-3.7 @ pe (0.169) =< @ x 2 a 4 2-3.7 | 3 g - S 2 [4O-3e-- x - = - = = lat Unit in mm(inch) Cob eA, omm 351 4.26X2.5 Depth both side 290+ 10 4.39 Direction 586 e of polarity # 55 | Direction of polarity |x GE) CCHV : 400+ 10 CF11V : 250410 $4.2DEPTH2, 5 =< (BOTH SIDE) #4.3 s a" 265 IN Cathode auxiliary terminal (Black! / Gate terminal { White! Direction of Polarity $60" GFPLOWGG | x _l_. Weight :360(g) Note : The thickness is a dimension in press at the rated mounting force. Type ChE AE RY > mm)$4.23DEPTH2.5 /._ DAT EInE. 4 BOTH SIDE 4.3 97S i ~] Cathode auxiliary terminal Black at the rated mounting force. $4.27) DEPTH2.5"! oY gaa YS BOTH SIDE 3 S ga 975M | Cathode auxiliary terminal Black | Gate terminal White Type | Direction of Polarity b7B"> e120 GEPse00GC | x | . rn Weight :1,460/g! Note : The thickness is a dimension in press at the rated mounting force. Cb de bd i fimm)> 353 HT-1 (0.524) 95*04{(0.313+0.008) _30MAK(1. 181} ua3_9 (0.354) [re 3 7. 3. fl =A | ft aa oY View of v w oa ostoo2s | 635t01 13 (0.051 0.8+0.025 | 6.2520.1 13 (0.051 O520.025 | 47501 (0.051 Unit in mrrxinch) HT-2 Y F nae pK A13 + Te + = Te - ry r aw 26.5MA X 29.5MA X 39MAX HT-5 45 300 40.2 [2 1.50MA X 3.7 7 25MAX 4g7 1T2 TERMINAL t WwW oA Ty 0.840.025] 6.35401 | 2.00 *F Te 0.8 0,025] 6.35+0.1 | 2.00 +4 G 0.540.025) 4.75+0.1 CREA fie mm)> 354 M-1 WHE 7 FALL] = JEDC : TO-92 56d ELF > bas GL 10MIN26MAX ie, fe 1,04~ 2. 63mm74K HR me 27 AED tot 1.9MAX11.0MAX ELEDADLEDATINT ox, ANTES el HeosSrAI DARN4F, VAAD eek US vo * Pink 2.63 ~ 6. 64mm? jk fe. By D7 yy xe ty tC oF Ve FE c M12x15-7| bin it Cot Be omeM20x 1.5 TI ks M24X1.5 PIF 355 M24X1.5 TIES 32048 3.5 RS 1MIN 31 | 3208 3.54 #2 IMIN AI- 1.0MIN ras 50MAX ae MSX08 #2 2.57 4 Cot EB ie 2 mm)7 a i BS nT CAR) +i Bah Boia TAR) 0.4MIN 504 Pee x M5X08 42 M5X 08 47 257A 2577 Att 0.4MIN 35+ 0.5 04MIN} 04 50- BR 92 M-21 r= \_,t0.5MAX ane BT OR) , 7 RS BT (AS) 125MAX nastt-rfFo}-oaMn 0.4MIN =| 0.4MIN M5 X 0.8 #7 2577 Ath MoX O08 AY M5X08 47 257 AF 25 7 Ate (oP BALA. | mm) 357 RCS, wR KT S 8 (FR) 330+10 (ie) mone RS + 450 a o 18 : f i Vey N x #50 a $920 FE 3 . a ~\ M5X0. 8% 7 2.5 M5X0.8 22.5 M-29 yea, | M-30 M-31 (FX aT f-W~O 77 h@ LES 7m RDB RA F (HR) Fok . H+ 19 ' Pi BDBR HB RF (AE) SF (AR) $3201 ES Nd SR+2,2+0.2 te M5 X0. 8282.5 $ 3.542. 2+0.2 Cot KE | mm) 358 On & OM & O7-+ TO-202 @8 @ CTE fit:mm) 359 3.6 + 02 | 3.2 hn 16MAX 9 12.5MIN es on = & z 2.5 @ 10.5MAX TAHOE MA, IE ho WT EMRE TOS) MT-6 33MAX S. 17MAX a HB. 33MAX & RS oe | 23+0.3 a 14.6MAX | y , 2 ? 9.5MAX 12.5MIN MTT NCI PR b> 187% Cot RB ie > mm)MT -9 MT-10 MT-11 23.26MIN 23.2 MIN 2.0 MIN 2.0 MIN yh rah 2.06 MIN /2.56MIN NP ELL A ae 8.7 MAX 15.5MAX 25.5MAX iid & ; + ; 8H / MT-12 MT-13 23.2 MIN 24.1MIN 28.5MAX cb PE Ht iy, + mm) 361 -165+8- 14.2MA 92MAX~ L 3.7MIN | 15.5MAX +l be 1.9MAX MT-23 ;3uK. Tee AN Noe = 4.2 Thiet y baFO 84 + 2-26. 16,35 Tate 41MAX ta 3.59 WS IMIN aeree 30.240.2 Dy hee 1 3 4a 1,.0MIN M24xX1.5 Le 14,540.5 a = 50 MAX oh EGE mm) ti eF @ T2%F @ Y biaeF @ T2%eF TERE HE fmm > 9.4 MAX. 8.5 MAX. 6.6 MAX, 95.2 MAX. @Or-t @rr-+ we & 13.0 MAX. 7 MAX 12.5 MIN. 77 33.3 10.5 MAX. | 363 - o36 4.8 MAX, 5.6 MAX. Ra N-5 10.5 MAX. 7.0 10.5 MAX. 740.2 1.340.2 0.5+0.1 4.7 MAX. 13.$ MIN. CEH @Mav-F t 13,7 MIN. N-8 6.540.2 5.049,2 4,3 MAX. eo 1.3 MAX. fel .540.2 10.0 MAX. MAX.0.8 MAX. RE @ #7-F @7/-F @ r-t @74e(F7-- Fi Cte RM it: mm)> 364 Cot i 84 12mm) 365 0.5+0.05 | 0.656MAX 25: BAEK lL. 7k pun op 1 ayvok 2.7 /- 3 LP/OK 3 ook 3. 47-7 JEDEC : TO-92 JEDEC : TO-202AA eb bd di tie + mm?NI 4 68RP. 88AP, 108AP. 68RS. 88RS, 78RT, 88RLD, 88RLE, 88RLF, 88RLG, 88RLH, tO8RLE 24.040.3- | wee QMAX we ak | goto. - ie is 6 13.040. be X M, Ss. Ni-5 6 NI-7 s9RW OL IS8RP, 208RP, 128AS, 178RS, 308RP, 408RP, SOBRP, 278RS, 158RT, t78RLO, 178RLE, 358RS, 258AT, 258RLD,258RLG, 178RLF, 178RLG, 178RLH, 258ALH, 308ALE, 308RLF, 358RLE 129RWL 403, fr $45 " p37ees Aste TEER ME fiemm >NI-9 259RW NI- 1 0 259RW")L 309RW' JL 103PA 253PA 503PA 553PA 803PA 103PLE 103PLG 103PLH 203PLG 253PLE 253PLH 353PLG 403PLE 403PLH auxiliary cathode (black) 280 + 10 > $C MAXoi Pp AMAX, r* 4 __ fe I a gate (white) [Tue | : 367 - t 103PA, 103PLE 103PLG, 103PLH 253PA, 203PLG 253PLE, 253PLH SO3PA, S53PA 353PLG, 403PLE 403PLH 803PA 40 46 55.5 65.5 16 22 30 32 36 42 50.5 50.5 403PAB 503PAB 503PLB 5 6 52M aunilary cathode Pas ary cethode | black \, S| TBAT] L= our at 1003PAB 1003PLF 1003PLH 1503PA ausalary cathode (lick? galetwhite NI-14 358RGA - . a NI-15 359RGA suewhite auulary catbode-~btack C135 Be mm > 368 NI-16 NI-18 NI-19 503PLH c 353PGA" JE 603PGA, 603PGAl JA, 803PGA 180! 180" 1 gate (white! . gate (white) auxiliary cathode auxiliary cathode (black) Se (black) 2-$4.3\ nN 63.587 2-93.59? 2.09 RY 2.0 UR) auxiliary cathode v5 Thlack? ro] ausihary cathade cast = (blacks 4 a x a 18 2 = 3 i $25, 32 78% MAR Kalelwhile) Lbs $46.54 4 NI-21 NI-22 NI-23 603PGAT jE 1001PGBT JE 1201PGA, 1201PGA" JA, 1401PGA 1201PGAT jE gate (white) D) gatel white! gate (whitel Er ET : auxiliary cathode, 2.08 GRH) AS $76 REESE Pei] Hi it mm >NI-24 2001PGB jE NI-26 ~ 369 Pb figomm > 370 65.2 MAX. | 4.2 MAX. = 1.77 MAX, 8 6 $5.2 MAX. t 12.7 MIN. 5,5 MAX. {a2 10.0 MAX 13.0 MAX. 77 10.5 MAX. 13.0 MIN 13.5 MIN. NT-6 10.5 MAX. NT -7 6.540.2 5.040.2 2.340.2 10.0 MAX. RH OT @i @c @ 7 rtTe) Cte i: mm)> 371 4H o o e No Xo 2 16.7MAX 1.35+0.15 12.0MIN 0.60 +84 tal sg = 2 g

mm)SA-3 \. | Ly \ 21+ 3.3MIN 1.6+0.1 4.1 MIN 25; 1 / ASoMIN pot alld MIN reodsaal 4.46MIN aa TT rt ' | S 14MIN = S H ~-14 7.6401 _ we Ie o Fan ! 3. NN i 6 = 1.8) 38.6MAX 17MAX-4 44 44 I-- 29MAX be1 6MAX -4 l+-39MAX qT (14g) | | & Sh bd ao 2 }]++_-33. 2MAX-__- + n > > 2-4.36MIN t ? 2-4,.36MIN # SC250C11 (85) * SC500C12 (100) TER BE it:mm) 373 - SA-11 SA-12 | SA-10 2-64.2 $7640.3 = N 2-4.1MIN $1041 $$ x ~ g o } = 3 it UF Ry nx cu 4 20.1max 21 Gmax 30.0- CATHODE 32.5MAX-+} 1.2MIN NE CATHODE 2.1gMIN | I ote 1.1 ATAB{0'T 6.357 8.25: 0.8 KTABSOT 6.357 8.25. 0.8 Spa os GTABIBIIT 4.757 -5.71 0.5 aS $3.540.2 y fe 22 = ase [7 t9MaX (oh Bite)TIME 7 RS y 250(T 6.35, t=0.8, 6 = 1.65) TO E77 Rb y 250(T=6.35,t=08, $= 1.65) GME 7 7A by 18717 =4.75,t=0.5, =13) SAT-5 5 aaa A4@MIN 5.2MIN 14gMIN 4 L4gMIN Af (859)] ) ig i) M12P1.5 Teale MAX = EEE 3MAX 20MAX pe 8 m 34M AX -13 M8P1.25 \_M6PL.0 [15 Cf BEI A iy | mm) 3715 oe 35.2184 MIN 22=05 2-3.1 MIN 2 1s +H > ws a I e M20P1.5 BEEBE ey WoASe ie > min? 376 SY >= [(1096a) hr C: Cathode A: Anode G: Gate SY -2151) 8.0 he 8.5 SY-31104) he 15.3 > Cc. Cathode SY - 4.150) [x 10.0->4 45 A c G: Gate A: Anode Cc: Cathode Ct 4 izmm)>12.3 Spee 377 378 T- 1 (13-5ata) 5.1OMAX DI PMAA 396 MAX 25MAX r 19MIN '6.6MAX 2. 2.7403 1.846402 97403 184402 AYR _ > 84+0.3 r. = htt |e a = = Lil 4, [ale t c 5 S47 MbxX08"} 1] Fit 2 $7 pre | 3 T 4 (13-1014) 1.00.0 T - 5 (13-1084) 10.3MAX cee I6.7MAX 4 = 5.6MAX L-13.0MIN~H15.3MAX-+ 3 T -6 (13-111) 16.56MAX wo toe ~ ~ { = 30.48MAX ak 11.1404 pie MBS T-8 (13-13B1A) wee 12.5MAX 2 | = \ to de 1 ref fe 0.75 - tH So S +0.05 24.38" One| ey 14.7402 os S aN = a t 1 < ee = T 8 32MAX+| N lL.*7-} 2 avF TI- (4A) Ct RES i > mnT-9 (13-14a1A) T-10 25MAX T- 1 T-12 (13-27818) 3719 ui WD lg a 3 # s ro a 3 3 o x) [Ss M12x 15 g/d a 8 1-Q) AYE 2 TI- L-aavy-FCK 38 -b ED 2 a ti a 4 M20 15 1-( AYyo-F 27/7-F 1-1) aAy-F (RB) 3 - 1 (A) 4 aw? S| 10.50 97 5MAX +05 16.8MAX 6 (13-19ATA) LL, (13-21B1A) 25.0MAX 14.26 MAX = ve PLOMAX, gg @-@) 2415 an oo < <= a 24 | = = 6.66403 } 2 a, eet - . pol, 4 x Jost fo +3 4 q rr 8 Lvok risvati aes gmake ss 920.3 159 a anes R) | 409+06 weet Baste vos ee) z Lies 24.440.1 z 1 | ; aol Logt02 020 14.740.2 os } doe t a > = sai \-% | 4 1.3MAX LA = pe T= eo fe Q = 3] 5 > a + Specs o> _ oe y= o eo oc Dez > | [Bsr 2tN\w | 8 S - is T & S ; Siz 5 PIN a | x | 40.0Max a = S2MAX Lavok 3 se 48S & are SEPT 3 15 Ly} Dyer t 3.7} z- j MBX125 {= 2. a/-# / t ig EGR = PI-E (GHA) (A) T- 1 3 300403 T- I 4 P35+03 T- 1 9 (13-35C1B) T- 1 6 (13-40B1A) 7.6MAX (13-27C1A) (ANY (18-82A1A) = 4362014" @-(1) oO + cS oO nN 45MAX 40MAX > mm)> 380 T-17 (13-42A14) 247410 $40.7 MAX. M24xis 0 2) 3 1-Q@ ay-F 2 TAF 1-@ vav-F() 3 -7+ (A) 410403 T- 18 (13-45D1a) 2-4.0 40.2 100 MAX. T - 19 (13-5281) 24.06 +0.2 23.0+0.3 T -20 (13-52cta) 2-4.06+0.2 T-21 (13-6014) 2-4.0+0.2 OO pasa 306+0.5 P cs i T-22 (13-70C14) 2-5.2640.2 -23 (13-78A1A) 2-5.2 0.2 @-W) 35 40.5 Cp ES i > mmT-25 (18-120A2A) 2-5.2+0.2 120MAX @O-) avYF @-(2) 4vF(#) @) F/F ) 7h(A) T -26 (13- 150414) 2-5.2+40.2 HS 2.540.4 7 (13-37A1A) 381 E1A) T-28 (13-45 2-46 40.2 RS 2+0.4 45,0 MAX 26048 \ 208405 ol 20+0.5 0.5 14+ T-29 (13-51ata) 246+0.2 otf / RS 2404 51g MAX 14+ T-31 (13-1014) 25,26+0.2 / BS 2540.4 100 MAX 60 Th T~32' (13-60E3a) 2-6564+02 10 - f* a6zae ae D-W) av-F @-(2) av-F @& vs-F 3 F- > (A) Ct EE fiz: mm> 382 T-34 (13-66a1a) T - 36 (13- 120814) A 2~5.26+0.2 2-5.26+0.2 RS 2140.3 T-35 (13-100D14) Ro @ 02) 100g MAX 1,056 40.5 260+10 > S L . s aeL08 4.36+0.1 3 z 1 yt et = 78MAX S| x , AA @ @ 55+0.5 4.3+0.1 L-T 756405. | | @ @ 1206MAX 4.46+0.1\ @M-() AY-F O-(1) ayF Dark Dav @(2) AY(B) @-@) #Y F(R) @rs-Fk ri- > nek % aye or @ 7+ QRH) Qk (eH) T-39 (13-8081) T - 40) (13-2814) 3~6.4 25,2 +0,2 297 3-R53 @-() 2 \. 356+0.5 . o di wo | i 260+8\ = i - 7 A s : a 5 < = \ 3 Lorsxos \ levee co Le @ 3 3 120 MAX PEREGO 356 +0.5 5040.8 a 2 805MAX +0. F098 ap 0.1 ny- 7? * Mf wwe - a Woahal we Y @-(2) #YF(B) @ T/-F Qo h(E) Cot ERAS mmT-4] (13-2824) 47.0405 T-42 (13-45F 14) @-0) av- @-(2) avy-FCR) T/- woke AY FOP E? T - 48 (13-60e2a) 2-936+02 gM10MAX @-) av-F @-@) av- (CR) Tse- @ 7-b CA) 383 T -44 (13-36a14) 3-64 BS y-F T -45 (13-5181) R-FSStOR (Pare SezOR RE 20204, he AS @-@) AY-F TI-F @ %-t T -46 (13-3681) 3-64 x a a 6(@e 412 S-R55_ 3) FASTON - TAB $187 4.5 155, 10 is T-47 (13-60E14) 60MAX @- av-F @-(@) #v-F (CM) Ts - yo (A) T -48 (13-98c14) | [eae Cot EEL iz mm) 384 T -49 13-75a14) 2G 36+02 7SMAXK 1-) AY-F 1-2) AYV- FCR) 2 T/- B y->r (A) T - 50 (13-1043) T-51 (13-1001) 1O3MAX, @O36+02 ete i T -52 (13-1024) 103 MAX. T 58 (13-10818) 16MIN 2544025 he T- 54 (13-10F 18) 103 MAX 70 me mec 170403 134MIN 2544025 T 55 (13-5a1D) S1MAX | | 4.7MAX. 12.7MIN. T - 56 (13-1314) CTE RH GZ: mm)>T-57 (12-16c1) 15 30 {30 |30 |/30 155 Max Sg a LS T -58 (13-10H18) 10.3MAX $3240.2 15.0+0.3 a Ht a 13.0MIN x < L TS 2 = 2 = 3 + g OV yok 20 F/R 3. Fob T 59 (13-120a14) 2-PE2+02 Go 4 BRA 25404 ff | Te = $e # @43+01 (R} 160=3 2.6 MAX. l-{th av--F 1-8 97-8 CR z. Tame 3 F-' @) 385 ne Ts} wot 1504 [1st01 1 -?} 2 770K 3 WAKE T-62 (13-10H1A) 1O.3MAX 3240.2 Pie 9 cork 0.754015 enna ba 03 15.0 2544025 25440.25 0.754015 T-63 (13-16a18) 158405 93.6402 35 ro SF io oO 21.0206.5 3 9 Re rey = rs) ) \ z coll WY = 49.25 | 5 1.07 848] = 5.45+0.2 5.45402 gastoa 15-02 aaj 1 2 3 21 fm SS} _ g *,) GSS ls 3 wo Lo oayorK 2047-6 3. Fb | HE Gy -mm > 386 _ RATE cro0t [ Xwweer XVN OS s XVACST T 9T =] prod TRE ft ~ a . : 3 1 B (oe ZO 9% ! ow : 5 eey ae (il | sssls|-\ a - 3 a e Li $F] 3 ~{7~} oy x y ta ot of 8 + ! R aw 3 $a! 7 al < 2 a 3 nee 5 i $l Fy & rik 3{ Le : 4 5 nz) we} | co 7 | 39 S 3 ZOFTS 5 - 4 XVAeOT - eB a 0 XVAL'P o 5 7 v sors x EO FOST NINOET 4 Ts Sut a 4 + 3 Ces 4 feo an f a 3 . Aas a On Bey o = Ba ad on 3 3 f ' $i 7 so iH STOFSZ0 - 2 ke | S a io] as 3 XVM NIRLST | yor at TY % XVALET NIKOZT . i Q) xwies a 80 & L 3 9) xViise q z a a cd ame ~ al ow 8 Be 3 5 Hohe ~ 3) - a= Bo 3 rn! 3 -J Ade a Be 6 & Ss : riot of ~ 3} 45 * co ag 8 2 al 3 $0 Als 4 ' g ' ay E : E i a COFOAT NIN PET os es] a a +H 3 2 a Ct iE BGs mr 387 = 7 12 Gra R20 jose 8 z of. a f ae @ ef 4 EF fi |. 33 algl Wtalat ta g UNMET Te 2 4 ay 4 * 14.0408 + 2 B BOR*O3 4 S&OMAX $ 4 g # 3a2+02 3 * 25 - 2 a +025 q +02: 4 yes6-a20] 1685-020 a 3 +008 % al a 94.0 -015 es el x clo B 4 2 3 s afar. & +f + OY 8 3 3 ee Be 2g Re g 8 3 RN 2 nN cl od 33 8 Sl a, + o T g 4Q.0MAX. 2 of RT Loeb L F-hOC PP Ah VY pe AT) DPR De ahve #1987) 29 a 11 " + 250) B v1 ( + #250) B Tg( 7-2) S Te " # 250) go Te ' #250) TT-13 TT-14 TT - 15013-14018) T T= 16 (13-1614) 3 4 $s 4 i ee or] -5 Bie eMax. % ~ 9 8 | B14. 2MAX. 2 15.8405 936402 ~ + a a - + 1 i GS MAX Cpe l Wit ~ | 4 15+01 el OS ~ seul TY i 2 H [ 24.4t01 T 4.4: a 8 2 Vai 155 Ass 21.040.5 6SMAX 11403 "Yo 0F05 3.6 MAX 67 MAX | 19.4 MIN 6140 SAMAK. a0 2 13402 13402 o Lig-t ie 1,2:T2 8 ee Ty ees nN 3:GATE 3 T2044) 4:Ti 388 - 25.0MAX 310d MAX | L.8MAX 11.0MAX 34.5MAX 1 32.56MAX 3.0MAX 15, 5MAX 30.2+0.2 : 16.85 2, Fivd aALIv(7Z) 11.6+0.5 __#3.320.5 le ~25 .0 12.0+1.0. 46, 5MAX 42. 5MAX 53.5MAX 43,.340.3 55MAX 13MAX 4246 MAX 16548 125.06] 1-2 | 1 Ash 4.3620.1 La ~ nine DE PRL rR) TS-5 14,040.3 10.3MAX 3.64 40.2 15.3MAX 13,0MAX Fol. SrA Le 7 eR S 3. 22 -F% toe ae mm)15.7MAX 24.3832 389 a sted VR \ 0.8sfhe- & 1. Collector & 2. Emiter 3, Base 4. 72min pes (sees 10rie 42.8 sax 34.0+0.2 Ji i 65.040,2 i _2,8X0.8TAB B10 = poe 1 NAME PLATE I Li 40 S-88D1A S-92B1A 1012.10, S-94B1A HOTAB S-94B1B Ct EMAEe : mm)S-94B2A 1 ut 3 TABELIO St / S-94D1A 10.0 6 12.0.612.06 8 393 S-95A1A S-95B1A 110Tab. 1 3,4 10-5 17,4.15.8 15.8 15.8 15.8 17.4 aS ceo re QBBIO0A S-108A2A Ct 7K SA fiz S mm) 394 - 107.5*0.6 93+0.3 3-M5 x T oo ne oot ie TAB#110 0.St NAME PLATE S-108B1C 107.540.6 S-108B2A 108max 3 210Tab FA S-108B2B 108max 5 3 17 817 8 7 pate 3 #10Tab agi |_| Ct 2: 4! iz:mm)> 395 2-22B1A 2-27A4A 2-33C1A 35+02 : a-g52403 135405 a 103405 1%5405 355205 24.3405 635403 O8tas $4505 2-38F1A 2-37A1A 80405. 8.0405 35.520.2 | 155 | 355205 S2+03 32.6+0.4 43.340.3 $3.0+0.3 22405 34.6404 | sion 3 t cd ES: lL NR 2 soe (4-A)~ 396 2-48A3A 2-48A3B 2-48A4A THF Ab VME HILO 777 yah vis #110 4-P yA VRE E250 4a7 rat 50 2-956+03 604025 72405 70405 2-64A2A 2-64A2B LO-F Ab yRF HELIO 10-7 yAb v-f#110 S-M los+og > 105206 S-7rAb vit $250 2-Ps6tas +08 . 2-856+03 a + BU EU BY EV BW Ug-yd-w BY "BZ g~ 39+05 L 64205 764025 Betas tl 353+ 05 Qo 2: Bl iz > mm) 397 2-68B2A 2-68C1A 2-68D2A -M ~8 56403 105305 165405 105405 //10405 35.35+ 05 2-80A1A 2-80B1A Bi y cl E1l/cC2 2 93 105 80 4 a4 4 }pe}pe ho * 2 t 4240.6 |__r0808 ow 33405 ad +) a 398 2-80C1A 2-80D2A 2-94A2A 6-7FrAbhy 7-Mt MELO Z5LOS zAb 135+06 | 145106 3-M 77k 110 4-865203 ENAB=+05 80+06 g52a 106408 T5LA6 14306 3103 25206 52208 15520 psteas. | 5 | a V } + af rq 108+a9g 2-94B1A 2-94C3A 12-77 REY M$ 110 estas 25ta5 % 4-7rAbY MF #110 4-55+03 \ LAN 2-956+03 5 y HEAAE +t 0.5 7rAaby MFM TE R 1 = 125406 o 3 g a bc dig oO titi tia NTAPAN 80203 935205 8403 3403 S403 5t05 aotaa 165405] 204 a5pas+o 27505 45 45 45 4: a4] at yis 92+08 CTE A ie | mm)2-94D1A s-ms BB A-PrAbv MF 110 \\ 22esse03 |? oF 23+05 JAPAN 935405 4405 4405 9.9408 18+0.9 [39+0: [ieo. 33.3+05 | 2-96A3A 414408 | 414406 16405 7405 a + | , 93408 60+08 2-96A4A 4-7rrh FH 110 4-$55+0.3 23405 62+08 B0to3 95408 414406 BY 1240.5 6340.25 98+0.5 13405 26.5405 2-98C2A . aE 2| 28x0.92840.5 | E1/! 9340.3 107.5408 240.8 2540.5 2240.8 74+) L. 400 2-108B1A 2-109A3A 2-109A4A 20405 2940.5 H = 2 {9} el a ip r 3t3| id 19405 $8208 80408 1075406 93203 108408 3405 24105 39405 2420. 1005 e344 T . f mls 205405 B33405 HI ois | ' 10608 : 60+08 4-77 AbVMF #110 2R-PS6+0S = =z 1 on 2-109B3A 2-109B4A 6-7rAby mt F110 110 S-M5 = fr Uo CK Q5 |28+05 804098 93403 108+08 $405 49406 tse 15t06]/ 3405 S+0. . 25406 R154! 49506 9406 5406 25406 215406 hehe hot x 1 ' q - 1 106+08 106408 60408 4 3 Cot BB fie mm) 401 BBT-I] ee BBT -Ill BBT-III 1D200A-020 ETN31-055, ETM36-030 BBTIli ETN36-030 ETNO1-055 ETN35-030 T1257 BBT-IV~ 402 VAMP No. 250 equivatent) Mounting hole Terminat 2-M& Cot EEE ir > mm)> 403 st EBL AT t mm) 404 hot Terminal Mounting hoe M4 Terminal M5, Mounting hole 2.05.4 : Tab type terminais Tab type terminals ae (AMP No 110 equivalent) 1AMP No 100 equivalent! 80 Tab type 1ermie: als (AMP No 110 equivatentl 23.0 |? smax. 340 35.5 a 4 5.0 Cot 5 ie + mm)> 405 Mounting hole 6.5 je 105 13.105 1 Tab type terminats Tab type terminal {AMP No. 110 equivalent) Tab type t Is (AMP No. 110 equivetont} ab type termina (AMP No. 110 equivalent M-211 Mounting hole 4.46.5 2- 45.828? Tab type terminals Tab type terminals (AMP No. 110 equivaient) (AMP No.110 equivalent) a Z gy 93 ~ oe 108 Tab type terminals (AMP No. 110 equivalent) ot Bie > mm)Tab type terminals (AMP No. 110 equivalent) eh ype ternal (Ae ND WO emer et) 1 puff al yg , a td 4 Tab type termina's Tab type terminals Tab type rerminots ase ho. 00 seventy. (AMP No. 110 equivatent) (AMP. No.110 equivatent} Ct 2 4 fiZ:mm)> 407 5 EES HE ieomm > 408 Teb type terminals (AMP No. 110 equivalent} Tab type terminals {AMP No. 250 equivatent) Feb type terminals Tab type terminals (AMP Na. 110 equivalent? (AMP No. 250 equivaient) O5t 28 Tab type terminals Tab type terminals (AMP No. 110 equivalent! = (AMP No. 250 equivalent) O.8t Coy EBA: mm) 409 __101 ws 3 _ 65. 17614 614 6 17 | 26.5 7.514 7.514 7.5 16 / tt, . n2.5. 20 2151215 475 t T Ls (go Bub Teekay He = p ad sae Sato utvaow arene l_| ax dered. fererp- deze} tat ft Tab type terminals (AMP No.1 45 104.510451045104.51045 equivalent) cr SNA SHOE SOA S102 5 re Leas 103 P7614 14 617: 465.8 plo Me * 21201 20. 22 80 1s TMST FAFA DRT 45 45 45/45 45 a5 oMA Cc 2d Yi hemm >- 410 M-1A1A , re) os 2820.2 + : AMP187 00. 8, 14, 50,2 2 65.540, ; 5040.3 $5.50. 1 AMP250 (0.8 AMPI10 10.5 (RR) 0 8,88, 8 /sFt05 35 7.8 #l.20 |, 4 , asi. Pde PA fizmm >9 FMF NO (t= 0.5)485 9 DMEF 250 (= 08)184 M-2F6A 88 . oa 66 8 tes | fT TT Tite iettten 6 Tab 8 260,1=0.8 Tab 8 t10.t-- 0.5 4lt M-2G6A 5) 715 7,15 7 u 5 | | 25. 105, FTF Anenze0 10.8 KM AMPIIOL0.5 KARZ BH #5.340.1 $5.340.1 -} MERA aE fiemm) 4l2 M-3D6A BuP BvP BwP E() 2-$4.3+0.1 Pir: Eur EvP_EwP f 34 (oF iE TRG firm)8040.2 8 13 1313 13 8 133103103103 13 #5.440.1 ~4l3 10.5] 13 [10.5 34d Sopa A fmm > 4l4 107 930.3 1413 13.13 13.13.14 7 AMP110 10.5 2 TRF es, 235 28 308] 28 3828 salt fe i AMPI10 10.59 7 of ELM At hmm >800.25 a8 23 23 23.5 so . a = B= (Gl AMP110 AMPIIO(G.5 4l5 12{ fal 12 464 5.50.15 AMP110 10.527 31 5 MB it 6.5 f sm $818 & 3h mh Lie AMPI110 10.597 3.047: 8 17-8 17 (32:50 mm)1 2 *. 2 an + 4840.3 62 [ie EyfE2 By wn $1.2 Oe db Te je 2+ Tab #410,1=05(RR2) Tab # 2501 = 0.8 (KIMI) { M-2E6C 427 yo 21 45 Qh 7,916.5 tg] jae. Td) 2a. o | fet 8 eC For Be Eyre ] / f u { of Ww i Ht fa Fist Eu Bui Een Bw Ewtd LL 9% ne Tab#110.1=0.5 Tabs 250,1=0.8M-2G6B (30:5), 7, 157,157, (23.5) nf a5. | fas. i | f* TERE 93 105, Tab # 250,10. 8 (RU 1) Tao 110, 10,5 (28 2) M-3D 6B 9x 7.62 = 68.58 762 8.71 2- 4l7- , re) as | 23 9 3 108 18 5 18 5 Ww tt Tab #110,t=0.5 Ct ERAS mm)418 M-10A2A Tab #110, 0.5 M-10A2B M-11A2A 4-9 6. Tab # 187, Tab #110, t=0,5 0.8 y 21.8 17 8 17 " 3 nq a 102 6 146 14 6 17 EuNByNEWN., VW Tab # 110,177.05 t+ EM 4 mm)419 El 23 23 17 80 + 0.25 20 4,16 420 | Tab #110t=0.1 204,16 4. 20 | Tab #110t=01 167.16 7.16 Tab # 110t =0.5 ot t, ed bee. Pr A REI A thatthe [2 X SP Se) 30 | 215 : 31 M-9B1C M-9D2A 1 80 + 0.25 Tab #1101 =0.5 16 7,16 ,7, 16 24 3 24 18 7,18 7, 18. Tab#110t=0.5 11 3-MB . $+ + / Tt Tt J 2 pat total Loo. it pana he! Lal _ a Cot BH Or : mm) 420 4 25 25 187,18 7, 18 21.5 Tab # 110t M-10A2C 113 25 25 | 21.5 93 22 3 22 3 22 ee on ee Tab #1101=0.5 oa) t ChE BLS > mm) 421 Weight '480g Cor ERMINALS 422 4-Fast-on Pec terminal 4-Fast-on terminal 2110 oO ae] N a 2 s wn 2 T+ - G2 C2 EY E a & C2EI [eae El Lew _tif El Let Weight:200g TERMINALS = (8g, Weight 360g TERMINALS GI (hk ES fizzmm)LF-J (7) 2-$5.540.3 (19) (27) sij t lazsq (OV on GTS (2.8) 3-M5AYRA 423 - (+32 BBY: mm)U-2 U-3 tae-5 OM AY pe5.0MAXH} 1+-9.45 MAX->l 8.5MAX o{}+5,3MAX 20MIN*+* 5.5MAK>4 38.1MIN 6.6 MAX 19.0MIN 6.6MAX Le som 5.86 + 0.2MAX U-5 5.84MAX 4.956MAX 13, 2++=5.0+| an = 10 \\4 a _ % Yy vrs \ EES 1 BASE | 1. BASE(2) Bin21 ew 2. EMITTER Eiziyy 3. BASE2 (CASE) BASEN) moe Crt Ed ies mm >